Abstract

Abstract Background: Drug discovery based on cellular phenotypes is impeded by the challenge of identifying the molecular target. To alleviate this problem, Myriad Pharmaceuticals has developed a chemical proteomics process to identify cellular proteins that bind to small molecules. CB30865 is a potent and selective cytotoxic compound of previously unknown mechanism of action (1). Using our technology, we have unequivocally demonstrated that CB30865 cytotoxicity is due to inhibition of nicotinamide phosphoribosyltransferase (Nampt). Nampt catalyzes the first step in the synthesis of NAD from nicotinamide. Cancer cells develop dependence on Nampt due to increased energy requirements and the elevated activity of NAD consuming enzymes such as sirtuins and mono and poly(ADP-ribose) polymerases. Materials and Methods: Direct target affinity purification (DTAP) was performed using analogs of CB30865 (MPI-0479883, MPI-0482594) coupled to beads. Purified proteins were identified by nano-flow reversed-phase liquid chromatography and tandem mass spectrometry using an LTQ-Orbitrap. In vitro Nampt activity was measured in a coupled biochemical assay based on the production of fluorescent resorufin. Nampt cellular activity was assayed by measuring levels of NAD and NAD-dependent polyADP-ribosylation. Results: As reported (1), 3-pyridyl, but not 2-pyridyl, analogs of CB30865 were potently cytotoxic. A 55 kD protein was purified efficiently using DTAP with MPI-0479883 (a 3-pyridyl CB30856 analog) but not MPI-0482594 (a 2-pyridyl analog). Preincubation of cellular lysates with uncoupled 3-pyridyl but not 2-pyridyl analogs potently blocked binding of the 55 kD protein. Based on LC-MS/MS analyses, the 55 kD protein was identified as Nampt. Immunoblotting of DTAPs using a Nampt specific antibody confirmed the MS identification. Furthermore, biochemical and cellular assays of Nampt activity demonstrated pyridyl-isomer specific enzyme inhibition. Finally, cellular Nampt inhibition and cytotoxicity were completely rescued by treating cells with 10 µM nicotinic acid as an alternate NAD source. Conclusions: The chemical proteomics DTAP approach is a powerful tool to identify molecular targets of orphan compounds. We demonstrate this here through identification of Nampt as the molecular target of CB30865 and further implicate NAD metabolism as a functional target for cancer. (1) Skelton LA, Ormerod MG, Titley J, Kimbell R, Brunton LA, Jackman AL. A novel class of lipophilic quinazoline-based folic acid analogues: cytotoxic agents with a folate-independent locus. Br J Cancer. 1999 Apr;79(11-12):1692-701. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 101st Annual Meeting of the American Association for Cancer Research; 2010 Apr 17-21; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2010;70(8 Suppl):Abstract nr 3673.

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